大学俱乐部体育运动员的多组分身体成分
Multicomponent body composition of university club sport athletes.
作者信息
Wagner Dale R, Heath Edward M, Harper Sara A, Cafferty Elizabeth A, Teramoto Masaru, Evans Alyssa, Burch Tate, McBride Jacob, Spencer Steven, Vakula Michael N
机构信息
Utah State University, Kinesiology & Health Science, Logan, UT, USA.
University of Alabama in Huntsville, Kinesiology, Huntsville, AL, USA.
出版信息
J Int Soc Sports Nutr. 2025 Dec;22(1):2446575. doi: 10.1080/15502783.2024.2446575. Epub 2024 Dec 26.
BACKGROUND
The body composition of National Collegiate Athletic Association (NCAA) athletes is well documented but no such data exist for university club sports athletes. Additionally, the majority of norms for NCAA athletes were created from individual methods requiring assumptions.
OBJECTIVE
This study used a four-component (4C) model to measure the body composition of university club sports athletes.
METHODS
Data were collected on club athletes participating in baseball, climbing, cycling, figure skating, gymnastics, ice hockey, lacrosse, pickleball, powerlifting, racquetball, rodeo, rugby, soccer, swimming, ultimate, and volleyball. The 4C model consisted of body volume, total body water, and bone mineral content measured by air displacement plethysmography, bioimpedance spectroscopy, and dual-energy x-ray absorptiometry, respectively. Percentile ranks were created for body fat percentage (%BF) and fat-free mass index (FFMI). Mean differences across teams were quantified with Cohen's .
RESULTS
In total, 225 athletes (137 men, 88 women) completed data collection. Athletes varied in competitive experience (1 to 22 y) and body mass index (16.9 to 36.4 kg·m). The density of the FFM was significantly greater than the assumed value of 1.100 g·cm for both men ( = .043) and women ( = .011). The %BF ranged from 4.9% to 35.7% (14.3 ± 5.8% BF) for men and from 15.5% to 42.8% (25.2 ± 6.0% BF) for women. FFMI ranged from 15.6 kg·m to 26.8 kg·m (30.0 kg·m outlier removed) for men and from 14.1 kg·m to 22.6 kg·m for women. Differences across sports in %BF and FFMI were considered large-sized effects ( ≥ 0.80) for both men and women. Weight-sensitive sports (e.g. cycling and climbing) had the lightest athletes and were among the leanest, whereas power athletes (e.g. powerlifting and rugby) were among the heaviest athletes and had the highest FFMI.
CONCLUSIONS
Differences in %BF and FFMI are evident across sports. Due to the small sample size, use caution when interpreting the data as reference values for club sports athletes.
背景
美国国家大学生体育协会(NCAA)运动员的身体成分已有充分记录,但大学俱乐部体育运动员尚无此类数据。此外,NCAA运动员的大多数标准是通过需要假设的个体方法制定的。
目的
本研究使用四成分(4C)模型来测量大学俱乐部体育运动员的身体成分。
方法
收集了参加棒球、攀岩、自行车、花样滑冰、体操、冰球、长曲棍球、匹克球、力量举、壁球、牛仔竞技、橄榄球、足球、游泳、极限飞盘和排球的俱乐部运动员的数据。4C模型分别由通过空气置换体积描记法、生物电阻抗光谱法和双能X线吸收法测量的身体体积、全身水和骨矿物质含量组成。创建了体脂百分比(%BF)和去脂体重指数(FFMI)的百分位数排名。团队间的平均差异用科恩系数进行量化。
结果
共有225名运动员(137名男性,88名女性)完成了数据收集。运动员的比赛经验(1至22年)和体重指数(16.9至36.4 kg·m²)各不相同。男性(P = 0.043)和女性(P = 0.011)的去脂体重密度均显著高于假设值1.100 g/cm³。男性的%BF范围为4.9%至35.7%(平均14.3 ± 5.8% BF),女性为15.5%至42.8%(平均25.2 ± 6.0% BF)。男性的FFMI范围为15.6 kg·m²至26.8 kg·m²(去除异常值30.0 kg·m²),女性为14.1 kg·m²至22.6 kg·m²。男性和女性在%BF和FFMI方面的运动差异均被认为是大效应(Cohen's d≥0.80)。对体重敏感的运动(如自行车和攀岩)的运动员最轻且最瘦,而力量型运动员(如力量举和橄榄球)是最重的运动员且FFMI最高。
结论
%BF和FFMI在不同运动项目之间存在明显差异。由于样本量较小,在将这些数据解释为俱乐部体育运动员的参考值时需谨慎。
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